Technology has infiltrated our homes and our holidays, our fashion and food choices, so it’s hardly surprising that our skin care hasn’t been spared! In fact, in 2025, tech in skin care trends are at an all time high, with technological advancements revolutionising skin care, offering innovative solutions for diagnosis, treatment, and patient care. The Australasian Society of Cosmetic Dermatologists (ASCD) is at the forefront of these developments, as highlighted in their upcoming symposium. Here are four ways you can use tech to transform your complexion this year.
1. Artificial Intelligence in dermatology
Artificial Intelligence (AI) is enhancing diagnostic accuracy and personalised treatment plans in dermatology. AI-driven tools analyse medical images to identify skin conditions with remarkable precision. For instance, AI models can detect keratinocytic skin cancer from facial photographs, aiding in early diagnosis and treatment. However, challenges persist, such as ensuring diverse and representative data to avoid biases in AI algorithms. Efforts are underway to refine these models for broader applicability, aiming to provide reliable diagnostic support across various skin types and conditions.
2. Dermoscopy and Enhanced Imaging Techniques
Dermoscopy, a non-invasive imaging technique, has become indispensable in dermatology for examining skin lesions. Technological advancements have led to the integration of AI with dermoscopic imaging, improving the accuracy of skin cancer diagnoses. AI-enhanced dermoscopy assists clinicians in differentiating between benign and malignant lesions, facilitating early intervention. The ASCD Symposium will feature workshops on advanced dermoscopy, providing hands-on experience with the latest tools and techniques, and emphasising the importance of continuous learning in this rapidly evolving field.
3. Energy-based devices and robotics
Energy-based devices, including laser and radiofrequency (RF) technologies, are gaining popularity for their effectiveness in skin rejuvenation and tightening. These devices use controlled energy to stimulate collagen production, addressing concerns like wrinkles and skin laxity. At-home RF devices have become more accessible, allowing individuals to maintain skin health conveniently. For example, CurrentBody’s RF Device utilises proprietary technology to deliver consistent energy, promoting collagen and elastin production. While at-home devices operate at lower energy levels than professional treatments, regular use can yield noticeable improvements.
Robotics is also making inroads into cosmetic dermatology. Researchers have developed robotic systems capable of performing skin photo-rejuvenation procedures with high precision. These systems use vision-guided technology to deliver laser treatments uniformly across the skin, enhancing both safety and efficacy. Such innovations reduce the margin for human error and ensure consistent results, marking a significant advancement in cosmetic procedures.
4. Advanced treatments and tech for skin cancer surgery
Technological progress is enhancing the precision and effectiveness of skin cancer surgeries. AI models are being developed to assist in the diagnosis of skin lesions, improving the accuracy of identifying malignant cases. For instance, the Hierarchical-Out of Distribution-Clinical Triage (HOT) model generates hierarchical predictions and alerts for out-of-distribution images, recommending further diagnostic steps when necessary. This approach ensures that uncommon or atypical lesions are accurately identified, facilitating timely and appropriate treatment.
The 2025 ASCD Symposium, scheduled for March 21-23 at the Crown Conference Centre in Melbourne, serves as a platform for professionals to explore these technological advancements. It will delve into these advancements, offering sessions on AI-driven solutions and their integration into clinical practice. With a comprehensive programme featuring workshops, plenary sessions, and hands-on training, attendees will have the opportunity to engage with experts and peers, fostering a collaborative environment for learning and innovation.